Bottles checked by cap detection through cardboard case on high speed packaging line

Summary

An American beverage producer conducts a final, pre-shipment check on all cases of bottles after the corrugated cardboard case has been sealed. Product integrity is verified by detecting bottle caps through layers of cardboard at the top of each sealed case.

Kundennutzen

Cost effective solution

Non contact / non-marring of packaging

Eliminates shipment of damaged or soiled product

Long performance history

Alleinstellungsmerkmale

Long operating distance (3x standard value)

Easy mounting and adjustment

Secure distance between moving object and sensor

High switching frequency

Excellent sensing stability, even with small and thin targets

Aufgabenstellung

The packaging of bottles into a corrugated cardboard case with hot glued flaps requires verification of placement and verification of bottles to confirm quality and quantity. A flawed bottle may have broken on impact with the bottom of the case, presenting a risk of contamination to machinery and subsequent packages. Bottles may be wrongly positioned or absent. A cap may be missing. Not having the ability to visually inspect the closed package demands an alternative approach.

A missed placement or shattered bottle is an indication for pack rejection that can be identified by the absence of a bottle cap in a specified position. In a relatively high speed packaging process, the challenge is therefore to detect caps through multiple layers of corrugated cardboard material of varying thickness and density, while interfacing with the controller that makes the logical decision to accept the package or reject and divert.

Realisierung

Basic range inductive sensors from the Extra Distance family (series 500), with operating distances 3x the standard sensing range, meet this challenge. A sensor bridge is built over the travel path of the cardboard cases. For each lane of bottles in a case, one 30 mm diameter inductive sensor is mounted on the bridge. The 30 mm non-embeddable sensor is chosen as it most closely equates to the size of the bottle cap and yields the greatest sensing distance for the available target area.

The extended sensing distance is sufficient to allow for minor variations in the height of the case as it passes under the sensor bridge. This not only ensures reliable sensing, but also keeps the sensor at a safe distance from any impact, avoiding consequent downtime. Some caution needs to be observed in mounting and spacing of the sensors so as to avoid the possibility of mutual interference (cross talk).